Tipos de ARN
- ARN mensajero (ARNm): lleva la información del ADN a los ribosomas.
- ARN de transferencia (ARNt) y ARN ribosómico (ARNr): elementos fundamentales en la traducción y regulación genética.
Modelo de Operon
- Regulación genética en procariotas: propuesto por Francois Jacob y Jacques Monod en 1961.
- Operón: operador, promotor, regulador y gen estructural.
![operon](data:image/png;base64,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)
- ADN: material genético que controla la herencia.
- Consiste en: ácido nucleico de dos tiras en doble hélice con información genética.
- ADN Recombinante: molécula artificial formada por secuencias de ADN de diferentes organismos.
- Uso: en estudios genéticos y producción de proteínas.
- Espermatogonia: célula masculina que origina espermatozoides.
- Blastula: estado temprano del desarrollo embrionario.
- Tipos de Blastulas: celoblástula, estereoblástula, discoblástula, periblástula.
- Epigénesis: proceso de desarrollo celular y orgánico.
- Entrecruzamiento: intercambio de secciones de ADN entre cromosomas.
- Resultado: recombinación genética.
- Experimento de Roux: estudio sobre desarrollo embrionario.
- Conclusión: el huevo contiene la información para el desarrollo embrionario.
- Experimento de Spemann: evidencia de información genética en cada núcleo embrionario.
- Mapa embrionario: formación de órganos y sistemas orgánicos durante el desarrollo embrionario.
- Los huevos: variaciones en tamaño y contenido nutritivo.
- Tipos: isolecitos, telolecitos, centrolecitos.